SØG - mellem flere end 8 millioner bøger:
Viser: Wireless Transceiver Design - Mastering the Design of Modern Wireless Equipment and Systems
Wireless Transceiver Design: Mastering the Design of Modern Wireless Equipment and Systems Vital Source e-bog
Ariel Luzzatto og Motti Haridim
(2016)
Wireless Transceiver Design: Mastering the Design of Modern Wireless Equipment and Systems Vital Source e-bog
Ariel Luzzatto og Motti Haridim
(2016)
Wireless Transceiver Design: Mastering the Design of Modern Wireless Equipment and Systems Vital Source e-bog
Ariel Luzzatto og Motti Haridim
(2016)
Wireless Transceiver Design
Mastering the Design of Modern Wireless Equipment and Systems
Ariel Luzzatto og Motti Haridim
(2016)
Sprog: Engelsk
Detaljer om varen
- 2. Udgave
- Vital Source searchable e-book (Reflowable pages)
- Udgiver: John Wiley & Sons (September 2016)
- Forfattere: Ariel Luzzatto og Motti Haridim
- ISBN: 9781118937372
Building upon the success of the first edition (2007), Wireless Transceiver Design 2nd Edition is an accessible textbook that explains the concepts of wireless transceiver design in detail. The architectures and the detailed design of both traditional and advanced all-digital wireless transceivers are discussed in a thorough and systematic manner, while carefully watching out for clarity and simplicity. Many practical examples and solved problems at the end of each chapter allow students to thoroughly understand the mechanisms involved, to build confidence, and enable them to readily make correct and practical use of the applicable results and formulas. From the instructors’ perspective, the book will enable the reader to build courses at different levels of depth, starting from the basic understanding, whilst allowing them to focus on particular elements of study. In addition to numerous fully-solved exercises, the authors include actual exemplary examination papers for instructors to use as a reference format for student evaluation.
The new edition has been adapted with instructors/lecturers, graduate/undergraduate students and RF engineers in mind. Non-RF engineers looking to acquire a basic understanding of the main related RF subjects will also find the book invaluable.
Bookshelf online: 5 år fra købsdato.
Bookshelf appen: ubegrænset dage fra købsdato.
Udgiveren oplyser at følgende begrænsninger er gældende for dette produkt:
Print: 10 sider kan printes ad gangen
Copy: højest 2 sider i alt kan kopieres (copy/paste)
Detaljer om varen
- 2. Udgave
- Vital Source 365 day rentals (dynamic pages)
- Udgiver: John Wiley & Sons (September 2016)
- Forfattere: Ariel Luzzatto og Motti Haridim
- ISBN: 9781118937372R365
Building upon the success of the first edition (2007), Wireless Transceiver Design 2nd Edition is an accessible textbook that explains the concepts of wireless transceiver design in detail. The architectures and the detailed design of both traditional and advanced all-digital wireless transceivers are discussed in a thorough and systematic manner, while carefully watching out for clarity and simplicity. Many practical examples and solved problems at the end of each chapter allow students to thoroughly understand the mechanisms involved, to build confidence, and enable them to readily make correct and practical use of the applicable results and formulas. From the instructors’ perspective, the book will enable the reader to build courses at different levels of depth, starting from the basic understanding, whilst allowing them to focus on particular elements of study. In addition to numerous fully-solved exercises, the authors include actual exemplary examination papers for instructors to use as a reference format for student evaluation.
The new edition has been adapted with instructors/lecturers, graduate/undergraduate students and RF engineers in mind. Non-RF engineers looking to acquire a basic understanding of the main related RF subjects will also find the book invaluable.
Bookshelf online: 5 år fra købsdato.
Bookshelf appen: 5 år fra købsdato.
Udgiveren oplyser at følgende begrænsninger er gældende for dette produkt:
Print: 10 sider kan printes ad gangen
Copy: højest 2 sider i alt kan kopieres (copy/paste)
Detaljer om varen
- 2. Udgave
- Vital Source 120 day rentals (dynamic pages)
- Udgiver: John Wiley & Sons (September 2016)
- Forfattere: Ariel Luzzatto og Motti Haridim
- ISBN: 9781118937372R120
Building upon the success of the first edition (2007), Wireless Transceiver Design 2nd Edition is an accessible textbook that explains the concepts of wireless transceiver design in detail. The architectures and the detailed design of both traditional and advanced all-digital wireless transceivers are discussed in a thorough and systematic manner, while carefully watching out for clarity and simplicity. Many practical examples and solved problems at the end of each chapter allow students to thoroughly understand the mechanisms involved, to build confidence, and enable them to readily make correct and practical use of the applicable results and formulas. From the instructors’ perspective, the book will enable the reader to build courses at different levels of depth, starting from the basic understanding, whilst allowing them to focus on particular elements of study. In addition to numerous fully-solved exercises, the authors include actual exemplary examination papers for instructors to use as a reference format for student evaluation.
The new edition has been adapted with instructors/lecturers, graduate/undergraduate students and RF engineers in mind. Non-RF engineers looking to acquire a basic understanding of the main related RF subjects will also find the book invaluable.
Bookshelf online: 120 dage fra købsdato.
Bookshelf appen: 120 dage fra købsdato.
Udgiveren oplyser at følgende begrænsninger er gældende for dette produkt:
Print: 10 sider kan printes ad gangen
Copy: højest 2 sider i alt kan kopieres (copy/paste)
Detaljer om varen
- 2. Udgave
- Hardback: 400 sider
- Udgiver: John Wiley & Sons, Incorporated (November 2016)
- Forfattere: Ariel Luzzatto og Motti Haridim
- ISBN: 9781118937402
Building upon the success of the first edition (2007), Wireless Transceiver Design 2nd Edition is an accessible textbook that explains the concepts of wireless transceiver design in detail. The architectures and the detailed design of both traditional and advanced all-digital wireless transceivers are discussed in a thorough and systematic manner, while carefully watching out for clarity and simplicity. Many practical examples and solved problems at the end of each chapter allow students to thoroughly understand the mechanisms involved, to build confidence, and enable them to readily make correct and practical use of the applicable results and formulas. From the instructors' perspective, the book will enable the reader to build courses at different levels of depth, starting from the basic understanding, whilst allowing them to focus on particular elements of study. In addition to numerous fully-solved exercises, the authors include actual exemplary examination papers for instructors to use as a reference format for student evaluation.
The new edition has been adapted with instructors/lecturers, graduate/undergraduate students and RF engineers in mind. Non-RF engineers looking to acquire a basic understanding of the main related RF subjects will also find the book invaluable.
1.1 Radio Frequency Systems 1
1.1.1 Conceptual RF system 1
1.1.2 The frequency spectrum 2
1.1.3 Cellular concept 3
1.2 Detailed Overview of Wireless Systems and Technologies 4
1.2.1 System types 4
1.2.2 Wireless network architectures 5
1.2.2.1 Wireless Personal Area Network 5
1.2.3 Wireless local area network 11
1.2.3.1 Wi-Fi 13
1.2.3.2 Wi-Fi Direct 14
1.2.4 Wireless wide area network 14
1.2.4.1 Cellular Systems 14
1.2.4.2 The Concept of Frequency Reuse 14
1.2.5 Access methods 20
1.2.5.1 Multiple access 20
1.2.5.2 Frequency division multiple access 20
1.2.5.3 Time division multiple access 21
1.2.5.4 Code division multiple access 21
1.2.5.5 Why to spread? 22
1.2.6 Transmit-receive regimes 24
1.2.6.1 Wireless transmission regimes (or modes) 24
1.2.6.2 Simplex mode 24
1.2.6.3 Half-duplex mode 25
1.2.6.4 Full duplex mode 25
1.2.6.5 Duplexing 25
1.2.6.6 Frequency division duplex 25
1.2.6.7 Time division duplex 26 Bibliography 26 2 Transceiver Architectures 27
2.1 Receiver Architectures 27
2.2 Superheterodyne Receiver 29
2.2.1 What is it and how it works 29
2.2.2 Pros and cons 33
2.2.3 Choosing the IF frequency 34
2.3 Direct Conversion Receiver 35
2.3.1 What is it and how it works 35
2.3.2 Pros and cons 35
2.4 Direct RF Sampling Receiver 36
2.4.1 What is it and how it works 36
2.4.1.1 Exercise: Determining sampling rate 40
2.4.2 Recovering I and Q channels in DRFS 40
2.4.2.1 Exercise: Recovering I and Q with bandwidth oversampling 41
2.5 Transmitter Architectures 42
2.6 Two Step Conversion Transmitter 43
2.6.1 What is it and how it works 43
2.6.2 Pros and cons 45
2.7 Direct Launch Transmitter 46
2.7.1 What is it and how it works 46
2.7.2 Pros and cons 46
2.8 Direct RF Sampling Transmitter 47
2.9 Transceiver Architectures 51
2.10 Full Duplex/Half-duplex Architecture 51
2.11 Simplex Architecture 52
2.12 Solved Exercises 53
2.13 Theory Behind Equations 59
2.13.1 DRFS transmitter 59
2.13.2 Sampling theorem reminder 60 Bibliography 62 3 Receiving Systems 63
3.1 Sensitivity 65
3.1.1 What is it and how it works 65
3.1.1.1 The definition of sensitivity 67
3.1.1.2 Exercise: Estimating a cell phone range 68
3.1.2 Interim sensitivity 69
3.1.2.1 Computing the noise factor of two cascaded stages 70
3.1.2.2 Exercise: Cascaded noise factor 71
3.1.2.3 Exercise: Computing SHR sensitivity 72
3.1.3 Measurement of sensitivity 74
3.1.3.1 Noise doubling approach 75
3.2 Co-channel Rejection 76
3.2.1 What is it and how it works 76
3.2.1.1 Definition of co-channel rejection 76
3.2.2 Measurement of co-channel rejection 77
3.3 Selectivity 78
3.3.1 What is it and how it works 78
3.3.1.1 Oscillator phase noise 78
3.3.1.2 Exercise: L (Î?f) estimation 81
3.3.1.3 Selectivity mechanisms 82
3.3.1.4 The definition of selectivity 84
3.3.1.5 Exercise: DCR selectivity 85
3.3.2 Measurement of selectivity 85
3.4 Blocking 86
3.4.1 What is it and how it works 86
3.4.1.1 The definition of blocking 87
3.4.1.2 Exercise: Blocking-free distance 88
3.4.2 Measurement of blocking 89
3.5 Intermodulation Rejection 89
3.5.1 What is it and how it works 89
3.5.1.1 The definition of intermodulation 91
3.5.1.2 Effect of added gain (or loss) 92
3.5.1.3 Exercise: Intermodulation 94
3.5.2 Measurement of intermodulation 94
3.6 Image Rejection 95
3.6.1 What is it and how it works 95
3.6.1.1 The definition of image rejection 97
3.6.1.2 Exercise: IR and front filter 97
3.6.2 Measurement of image rejection 98
3.7 Half-IF Rejection 98
3.7.1 What is it and how it works 98
3.7.1.1 The definition of half-IF rejection 100
3.7.1.2 Exercise: HIFR and front filter 101
3.7.2 Measurement of half-IF rejection 102
3.8 Dynamic Range 102
3.8.1 What is it and how it works 102
3.8.1.1 The definition of dynamic range 103
3.8.2 Measurement of dynamic range 103
3.9 Duplex Desense 103
3.9.1 What is it and how it works 103
3.9.1.1 The definition of duplex desense 105
3.9.1.2 Exercise: Required T-R attenuation to keep DS â?¤ 3dB 105
3.9.2 Measurement of duplex desense 106
3.10 Other Duplex Spurs 107
3.10.1 What they are and how they work 107
3.10.1.1 Duplex image rejection 107
3.10.1.2 Half duplex spur 107
3.10.1.3 Phantom duplex spur 108
3.11 Other Receiver Interferences 108
3.11.1 What they are and how they work 108
3.11.1.1 Self quieters 108
3.11.1.2 Able-baker spurs 110
3.11.1.3 Doppler blocking 110
3.11.1.4 Second-order distortion 110
3.11.1.5 Spurious free dynamic range 111
3.12 Solved Exercises 111
3.13 Theory Behind Equations 126
3.13.1 Sensitivity 126
3.13.2 Co-channel rejection 128
3.13.3 Selectivity 128
3.13.4 Intermodulation 129
3.13.5 Image rejection 130
3.13.6 Half-IF rejection 131
3.13.7 Duplexer mechanisms 132
3.13.7.1 Isolation mechanism 132
3.13.7.2 Noise attenuation mechanism 134
3.13.8 Duplex desense 135
3.14 Extension to Direct RF Sampling Receivers 136
3.14.1 ADC noise factor 136
3.14.1.1 Exercise: Computing ADC noise floor and noise figure 137
3.14.1.2 Exercise: Computing DRFS sensitivity 137
3.14.2 SNR, selectivity, and blocking in a DRFS receiver 138
3.14.2.1 Snr 139
3.14.2.2 Selectivity and blocking 140
3.14.2.3 Exercise: DRFS blocking 141
3.14.2.4 Imr 3 142
3.14.2.5 Exercise: Estimating IP3i of an ADC 142
3.14.3 Reminder on quantization noise 142 Bibliography 143 4 Transmitting Systems 145
4.1 Peak to Average Power Ratio 147
4.1.1 What is it and how it works 147
4.1.1.1 Exercise: PAPR of unfiltered 16 QAM 148
4.1.2 Measurement of PAPR 150
4.2 Nonlinearity in RF Power Amplifiers 150
4.2.1 What is it and how it works 150
4.2.2 Third-order dominated PA behavior 154
4.2.2.1 Exercise: Computation of third-order dominated PA coefficients 155
4.2.3 Fifth-order dominated PA behavior 157
4.2.3.1 Exercise: computation of fifth-order dominated PA coefficients 157
4.2.4 In-band spectral picture of PA output 159
4.2.5 Description of PA simulation methodology 160
4.2.5.1 The input signal v(t) 161
4.2.5.2 The output signal V[v(t)] 163
4.2.5.3 The input and output spectral picture 163
4.2.6 N-th order intermodulation distortion 163
4.2.6.1 Exercise: Coefficient-based versus SPICE simulation of spectral re-growth 168
4.2.6.2 Laboratory measurement of IMDN 171
4.2.7 N-th order input intercept point 171
4.2.7.1 Exercise: Estimating IMDN from IPNi 172
4.2.7.2 Exercise: Rule of thumb 173
4.2.7.3 Exercise: IPNi using voltages 173
4.3 Transmitter Specifications 174
4.3.1 Spectral mask 174
4.3.2 Error vector magnitude 174
4.3.2.1 Other causes of EVM degradation 176
4.3.3 Adjacent coupled power ratio 176
4.3.4 PA efficiency 177
4.3.5 Transmitter transients 178
4.3.5.1 Attack time 178
4.3.5.2 Frequency shift upon keying 179
4.3.6 Radiated emission 179
4.3.7 Conducted spurs 179
4.4 Enhancement Techniques 180
4.4.1 Linearization techniques 181
4.4.1.1 Cartesian feedback 181
4.4.1.2 Feed-forward 183
4.4.1.3 Pre-distortion 185
4.4.2 Envelope-tracking supply 186
4.5 Solved Exercises 186
4.6 Theory Behind Equations 198
4.6.1 Computation of PAPR for quasi-static RF signals 198
4.6.2 Analytic models for PA nonlinearity 201
4.6.3 Effects of PA nonlinearity on digital modulation 204
4.6.4 Effects of PA nonlinearity on spectral shape 205
4.6.5 Characterization of PA nonlinearity 210
4.6.5.1 N-th order intermodulation distortion 212
4.6.5.2 N-th order input intercept point 213 Bibliography 214 5 Synthesizers 216
5.1 Integer-N Synthesizer 216
5.1.1 What is it and how it works 216
5.1.1.1 The lock-up mechanism 219
5.1.1.2 Lock-up time 221
5.1.1.3 Exercise: Estimating integer-N lock time 224
5.1.1.4 Something more on reference spurs and pre-integration capacitor 225
5.1.1.5 Exercise: Estimating reference spurs attenuation 225
5.1.1.6 Something more on phase-frequency detector modes 226
5.2 Fractional-N Synthesizer 228
5.2.1 What is it and how it works 228
5.2.1.1 Exercise: Estimating fractional-N lock time 230
5.2.2 Example: Dual-count fractional-N 231
5.3 Direct Digital Synthesizer 232
5.3.1 What is it and how it works 232
5.3.1.1 Exercise: Basic DDS design 234
5.4 Integer-N/DDS Hybrid Synthesizer 235
5.4.1 What is it and how it works 235
5.5 Solved Exercises 236
5.6 Theory Behind Equations 244
5.6.1 Integer-N analysis 244
5.6.1.1 Transient analysis 246
5.6.1.2 Lock time analysis 250 Bibliography 251 6 Oscillators 253
6.1 Low-power Self-limiting Oscillators 254
6.1.1 What is it and how it works 2
Handler du som firma
Forretningsbetingelser
Porto og forsendelse
Data & cookiepolitik
Tlf 77 42 43 44 - email poly@polyteknisk.dk - CVR 34072655 - Sydbank Reg: 6748 Konto 0001107927